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(Reference retrieved automatically from Web of Science through information on FAPESP grant and its corresponding number as mentioned in the publication by the authors.)

Facile Elaboration of Wet Cellulose Film as Catalyst Support of MnOx Nanoparticles for the Catalytic Oxidation of Dyes in Absence of Light

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Oliveira, Larissa V. F. [1, 2, 3] ; Limousy, Lionel [1, 2] ; Bennici, Simona [1, 2] ; Josien, Ludovic [1, 2] ; Hajjar-Garreau, Samar [1, 2] ; Goddard, Mary-Lorene [4, 5, 6] ; Bizeto, Marcos A. [3] ; Camilo, Fernanda F. [3]
Total Authors: 8
[1] Univ Haute Alsace, CNRS, UMR 7361, IS2M, F-68100 Mulhouse - France
[2] Univ Strasbourg, CNRS, UMR 7361, F-67000 Strasbourg - France
[3] Univ Fed Sao Paulo, Dept Quim, Inst Ciencias Ambientais Quim & Farmaceut, Lab Mat Hibridos, Campus Diadema, BR-18052780 Sao Paulo - Brazil
[4] Univ Haute Alsace, CNRS, UMR 7042, LIMA, 3Bis Rue Alfred Werner, F-68093 Mulhouse - France
[5] Univ Strasbourg, CNRS, UMR 7042, LIMA, 3Bis Rue Alfred Werner, F-68093 Mulhouse - France
[6] Univ Haute Alsace, EA 3991, Lab Vigne Biotechnol & Environm, 33 Rue Herrlisheim, F-68008 Colmar - France
Total Affiliations: 6
Document type: Journal article
Source: CLEAN TECHNOLOGIES; v. 3, n. 2, p. 288-298, JUN 2021.
Web of Science Citations: 0

In the present work a remarkably simple procedure for the elaboration of wet cellulose film containing manganese oxide nanoparticles was developed. The films were produced using a mold made by 3D printing using cellulose dissolved in an ionic liquid, which allows the production of thin and homogeneous films of different shapes, types and designs which cannot be made using conventional techniques. Thanks to this possibility, the final catalytic object can be implemented in specific reactors. Manganese oxide nanoparticles were prepared as a colloidal solution by a redox/sol-gel procedure and then deposited on the cellulose films by wet impregnation. The catalytic film obtained was tested in the decomposition of a dye, indigo carmine (IC), in the absence of light. The influence of the pH of the solution on the decomposition rate was investigated. IC total decomposition was measured after 1-h reaction at pH below 3. At pH = 2, no deactivation of the catalyst was observed even after four decomposition cycles. This work provides a new strategy to design cellulose-based catalysts for dye removal from wastewater. (AU)

Grantee:Fernanda Ferraz Camilo
Support type: Regular Research Grants